Abstract
As a part of the measures taken against the global warming, developmental trend studies and case studies are made for technologies of power generation, CO2 recovery and treatment of recovered CO2, to find a course of the study of the systems to recover CO2 from thermal power plants. CO2 recovery systems are selected which have high potential in each kind of fuel and each power generation method for a plant with a generating end output of 600,000 kW to be newly constructed in the beginning of 2000, and their energy efficiency, CO2 reduction effects and economical efficiency are evaluated. Chemical/physical CO2 recovery from flue gas and CO2 separation from precombustion gas by steam reforming seem to be promising in LNG combined cycle, pulverized coal-fired, oxygen blown integrated coal gasification combined cycle, air blown integrated coal gasification combined cycle, and reformed methanol thermal power plants. For treatment of the recovered CO2, considered are marine, underground and oil well disposals. At existing thermal plants where kinds of fuel used are specified, recovery from the coal-fired power generation plant which is low in required power per recovery amount is profitable. At newly constructed plants where kinds of fuel used are open to choice,
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Citation Formats
None.
CO recovery from thermal power generation plants; Karyoku hatsuden plant kara no CO2 kaishu system ni kansuru chosa.
Japan: N. p.,
1992.
Web.
None.
CO recovery from thermal power generation plants; Karyoku hatsuden plant kara no CO2 kaishu system ni kansuru chosa.
Japan.
None.
1992.
"CO recovery from thermal power generation plants; Karyoku hatsuden plant kara no CO2 kaishu system ni kansuru chosa."
Japan.
@misc{etde_10156762,
title = {CO recovery from thermal power generation plants; Karyoku hatsuden plant kara no CO2 kaishu system ni kansuru chosa}
author = {None}
abstractNote = {As a part of the measures taken against the global warming, developmental trend studies and case studies are made for technologies of power generation, CO2 recovery and treatment of recovered CO2, to find a course of the study of the systems to recover CO2 from thermal power plants. CO2 recovery systems are selected which have high potential in each kind of fuel and each power generation method for a plant with a generating end output of 600,000 kW to be newly constructed in the beginning of 2000, and their energy efficiency, CO2 reduction effects and economical efficiency are evaluated. Chemical/physical CO2 recovery from flue gas and CO2 separation from precombustion gas by steam reforming seem to be promising in LNG combined cycle, pulverized coal-fired, oxygen blown integrated coal gasification combined cycle, air blown integrated coal gasification combined cycle, and reformed methanol thermal power plants. For treatment of the recovered CO2, considered are marine, underground and oil well disposals. At existing thermal plants where kinds of fuel used are specified, recovery from the coal-fired power generation plant which is low in required power per recovery amount is profitable. At newly constructed plants where kinds of fuel used are open to choice, recovery from LNG- and methanol-thermal power generation plants which are low in CO2 emission is profitable.}
place = {Japan}
year = {1992}
month = {Mar}
}
title = {CO recovery from thermal power generation plants; Karyoku hatsuden plant kara no CO2 kaishu system ni kansuru chosa}
author = {None}
abstractNote = {As a part of the measures taken against the global warming, developmental trend studies and case studies are made for technologies of power generation, CO2 recovery and treatment of recovered CO2, to find a course of the study of the systems to recover CO2 from thermal power plants. CO2 recovery systems are selected which have high potential in each kind of fuel and each power generation method for a plant with a generating end output of 600,000 kW to be newly constructed in the beginning of 2000, and their energy efficiency, CO2 reduction effects and economical efficiency are evaluated. Chemical/physical CO2 recovery from flue gas and CO2 separation from precombustion gas by steam reforming seem to be promising in LNG combined cycle, pulverized coal-fired, oxygen blown integrated coal gasification combined cycle, air blown integrated coal gasification combined cycle, and reformed methanol thermal power plants. For treatment of the recovered CO2, considered are marine, underground and oil well disposals. At existing thermal plants where kinds of fuel used are specified, recovery from the coal-fired power generation plant which is low in required power per recovery amount is profitable. At newly constructed plants where kinds of fuel used are open to choice, recovery from LNG- and methanol-thermal power generation plants which are low in CO2 emission is profitable.}
place = {Japan}
year = {1992}
month = {Mar}
}